Relevance of magnetic properties of soil in the magnetic observatories to geomagnetic observation

Annual geomagnetic variations with a maximum amplitude of 5 nT, and in phase with ground temperature variations at a depth of 1–2 m, were observed in the baseline values of fluxgate magnetometers installed at three JMA magnetic observatories. A possible origin of the annual variations is a change in...

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Published in	Earth, planets, and space Vol. 65; no. 4; pp. 337 - 342
Main Authors	Mishima, Toshiaki, Owada, Takeshi, Moriyama, Takashi, Ishida, Norihisa, Takahashi, Kosuke, Nagamachi, Shingo, Yoshitake, Yuki, Minamoto, Yasuhiro, Muromatsu, Fujio, Toyodome, Shuichi
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2013 Springer Nature B.V
Subjects	Earth and Environmental Science Earth Sciences Geology Geophysics/Geodesy annual variation Geomagnetic observation rock magnetism
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Abstract	Annual geomagnetic variations with a maximum amplitude of 5 nT, and in phase with ground temperature variations at a depth of 1–2 m, were observed in the baseline values of fluxgate magnetometers installed at three JMA magnetic observatories. A possible origin of the annual variations is a change in magnetization of the soil due to changes in ground temperature. In order to examine the effect of temperature changes on soil magnetization, we measured the magnetic properties of soil samples collected at the JMA observatories. Magnetization of soil samples in a magnetic field of 0.05 mT ranged within 0.05 × 10 −3 −1.6 × 10 −3 A m 2 /kg and the temperature dependence of magnetization ranged within 0.3 × 10 −6 −14 × 10 −6 A m 2 /kg °C, except for a sample having an extraordinarily strong magnetization. Based on the measured magnetization, and their temperature dependence, of samples from Memambetsu, which shows the largest values among the samples from the three observatories, we determined the distribution of the geomagnetic field and its annual variation produced by soil magnetization. The maximum amplitude of annual variation in the geomagnetic field is 7 nT, which is consistent with the observed annual variation of the baseline value of the magnetometers.
AbstractList	Annual geomagnetic variations with a maximum amplitude of 5 nT, and in phase with ground temperature variations at a depth of 1-2 m, were observed in the baseline values of fluxgate magnetometers installed at three JMA magnetic observatories. A possible origin of the annual variations is a change in magnetization of the soil due to changes in ground temperature. In order to examine the effect of temperature changes on soil magnetization, we measured the magnetic properties of soil samples collected at the JMA observatories. Magnetization of soil samples in a magnetic field of 0.05 mT ranged within 0.05 x 10 super(-3) - 1.6 x 10 super(-3) A m super(2)/kg and the temperature dependence of magnetization ranged within 0.3 x 10 super(-6) - 14 x 10 super(-6) A m super(2)/kg degree C, except for a sample having an extraordinarily strong magnetization. Based on the measured magnetization, and their temperature dependence, of samples from Memambetsu, which shows the largest values among the samples from the three observatories, we determined the distribution of the geomagnetic field and its annual variation produced by soil magnetization. The maximum amplitude of annual variation in the geomagnetic field is 7 nT, which is consistent with the observed annual variation of the baseline value of the magnetometers. Annual geomagnetic variations with a maximum amplitude of 5 nT, and in phase with ground temperature variations at a depth of 1-2 m, were observed in the baseline values of fluxgate magnetometers installed at three JMA magnetic observatories. A possible origin of the annual variations is a change in magnetization of the soil due to changes in ground temperature. In order to examine the effect of temperature changes on soil magnetization, we measured the magnetic properties of soil samples collected at the JMA observatories. Magnetization of soil samples in a magnetic field of 0.05 mT ranged within 0.05 × 10^sup -3^-1.6 × 10^sup -3^ A m^sup 2^/kg and the temperature dependence of magnetization ranged within 0.3 × 10^sup -6^-14 × 10^sup -6^ A m^sup 2^/kg °C, except for a sample having an extraordinarily strong magnetization. Based on the measured magnetization, and their temperature dependence, of samples from Memambetsu, which shows the largest values among the samples from the three observatories, we determined the distribution of the geomagnetic field and its annual variation produced by soil magnetization. The maximum amplitude of annual variation in the geomagnetic field is 7 nT, which is consistent with the observed annual variation of the baseline value of the magnetometers. Annual geomagnetic variations with a maximum amplitude of 5 nT, and in phase with ground temperature variations at a depth of 1–2 m, were observed in the baseline values of fluxgate magnetometers installed at three JMA magnetic observatories. A possible origin of the annual variations is a change in magnetization of the soil due to changes in ground temperature. In order to examine the effect of temperature changes on soil magnetization, we measured the magnetic properties of soil samples collected at the JMA observatories. Magnetization of soil samples in a magnetic field of 0.05 mT ranged within 0.05 × 10 −3 −1.6 × 10 −3 A m 2 /kg and the temperature dependence of magnetization ranged within 0.3 × 10 −6 −14 × 10 −6 A m 2 /kg °C, except for a sample having an extraordinarily strong magnetization. Based on the measured magnetization, and their temperature dependence, of samples from Memambetsu, which shows the largest values among the samples from the three observatories, we determined the distribution of the geomagnetic field and its annual variation produced by soil magnetization. The maximum amplitude of annual variation in the geomagnetic field is 7 nT, which is consistent with the observed annual variation of the baseline value of the magnetometers.
Author	Toyodome, Shuichi Yoshitake, Yuki Owada, Takeshi Muromatsu, Fujio Moriyama, Takashi Ishida, Norihisa Takahashi, Kosuke Nagamachi, Shingo Mishima, Toshiaki Minamoto, Yasuhiro
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Cites_doi	10.1186/BF03351617 10.1186/BF03352680
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Copyright	The Society of Geomagnetism and Earth, Planetary and Space Sciences (SGEPSS); The Seismological Society of Japan; The Volcanological Society of Japan; The Geodetic Society of Japan; The Japanese Society for Planetary Sciences; TERRAPUB. 2012 The Society of Geomagnetism and Earth, Planetary and Space Sciences, The Seismological Society of Japan 2012
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References	Yamazaki, Shigeno, Yamamoto, Kumagai, Itoh (CR8) 2012; 10 Utada, Neki, Kagiyama (CR7) 2000; 52 Nishimura, Arita, Moriyama, Hashimoto, Sugawara, Ishida, Hasegawa (CR3) 2012; 10 CR4 Machida, Arai (CR2) 2003 Oyama, Takehara (CR6) 1967 Oowada, Tokumoto, Yamada, Ozima, Kumasaka, Yokoyama, Sugawara, Koike, Shimizu (CR5) 2003; 1 Kawamura, Oda, Ikehara, Yamazaki, Shioi, Taga, Hatakeyama, Torii (CR1) 2007; 59 T Oowada (650040337_CR5) 2003; 1 A Yamazaki (650040337_CR8) 2012; 10 650040337_CR4 H Machida (650040337_CR2) 2003 H Utada (650040337_CR7) 2000; 52 M Nishimura (650040337_CR3) 2012; 10 N Kawamura (650040337_CR1) 2007; 59 M Oyama (650040337_CR6) 1967
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Title	Relevance of magnetic properties of soil in the magnetic observatories to geomagnetic observation
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